Seamless Aluminum Duct To Bear The Pressure How Much

Seamless Aluminum Duct to bear the pressure how much

The use of 2024 refrigerant air-conditioning seamless Aluminum Duct, to
withstand 30 kg pressure no problem; use R410a refrigerant air-conditioning
Aluminum Duct, to withstand 44 kg pressure no problem. Try not to be too much
pressure Oh Too great is dangerous. First, the seamless Aluminum Duct than the
seam pressure is better, seamless Aluminum Duct texture is relatively uniform,
the weld pipe in the weld part of the chemical composition will be a small
amount of burning, so the mechanical properties slightly worse and seamless, but
not a difference Very big. Second, if it is bent with the proposed use of
seamless pipe, welded pipe is easy to crack, bending radius is relatively large,
then no problem, it is because the high-frequency welded pipe although welded
joints, but it is composite aluminum, which consists of two Above the
composition of aluminum alloy, generally its surface layer of brazing layer

The use of 2024 refrigerant air-conditioning seamless Aluminum Duct, to
withstand 30 kg pressure no problem; use R410a refrigerant air-conditioning
Aluminum Duct, to withstand 44 kg pressure no problem. Try not to be too much
pressure Oh Too great is dangerous.

First, the seamless Aluminum Duct than the seam pressure is better,
seamless Aluminum Duct texture is relatively uniform, the weld pipe in the weld
part of the chemical composition will be a small amount of burning, so the
mechanical properties slightly worse and seamless, but not a difference Very
big.

Second, if it is bent with the proposed use of seamless pipe, welded pipe
is easy to crack, bending radius is relatively large, then no problem, it is
because the high-frequency welded pipe although welded joints, but it is
composite aluminum, which consists of two Above the composition of aluminum
alloy, generally its surface layer of brazing layer.

Seamless steel pipe to bear the pressure calculation formula Method:

A: to know the diameter of the wall thickness can withstand the pressure
calculation method (different tensile strength of different materials):